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FLEcli/fleprocess/load_file.go

412 lines
13 KiB

package fleprocess
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/*
Copyright © 2020 Jean-Marc Meessen, ON4KJM <on4kjm@gmail.com>
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Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
import (
"bufio"
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"fmt"
"log"
"os"
"regexp"
"strings"
"time"
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)
// LoadFile FIXME:
// returns nill if failure to process
func LoadFile(inputFilename string, isInterpolateTime bool) (filleFullLog []LogLine, isProcessedOK bool) {
file, err := os.Open(inputFilename)
if err != nil {
log.Fatalf("failed opening file: %s", err)
}
scanner := bufio.NewScanner(file)
scanner.Split(bufio.ScanLines)
var txtlines []string
for scanner.Scan() {
txtlines = append(txtlines, scanner.Text())
}
if error := scanner.Err(); error != nil {
log.Fatal(error)
}
file.Close()
//isInferTimeFatalError is set to true is something bad happened while storing time gaps.
isInferTimeFatalError := false
regexpLineComment := regexp.MustCompile(`^[[:blank:]]*#`)
regexpInLineComment := regexp.MustCompile(`.*#.*`)
regexpOnlySpaces := regexp.MustCompile(`^\s+$`)
regexpSingleMultiLineComment := regexp.MustCompile(`^[[:blank:]]*{.+}$`)
regexpStartMultiLineComment := regexp.MustCompile(`^[[:blank:]]*{`)
regexpEndMultiLineComment := regexp.MustCompile(`}$`)
//FIXME: fields can delimited with space or TAB ("(?i)^mywwff\s+")
regexpHeaderMyCall := regexp.MustCompile(`(?i)^mycall\s+`)
regexpHeaderOperator := regexp.MustCompile(`(?i)^operator\s+`)
regexpHeaderMyWwff := regexp.MustCompile(`(?i)^mywwff\s+`)
regexpHeaderMySota := regexp.MustCompile(`(?i)^mysota\s+`)
regexpHeaderMyPota := regexp.MustCompile(`(?i)^mypota\s+`)
regexpHeaderMyGrid := regexp.MustCompile(`(?i)^mygrid\s+`)
regexpHeaderQslMsg := regexp.MustCompile(`(?i)^qslmsg\s+`)
regexpHeaderNickname := regexp.MustCompile(`(?i)^nickname\s+`)
headerMyCall := ""
headerOperator := ""
headerMyWWFF := ""
headerMySOTA := ""
headerMyPOTA := ""
headerMyGrid := ""
headerQslMsg := ""
headerNickname := ""
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headerIsFirstLine := true
//headerDate := ""
lineCount := 0
wrkTimeBlock := InferTimeBlock{}
missingTimeBlockList := []InferTimeBlock{}
var isInMultiLine = false
// var cleanedInput []string
var errorLog []string
var previousLogLine LogLine
fullLog := []LogLine{}
//Loop through all the stored lined
for _, eachline := range txtlines {
lineCount++
// ****
// ** Lets do some house keeping first by dropping the unnecessary lines
// ****
//Skip the line if it starts with "#"
if regexpLineComment.MatchString(eachline) {
continue
}
//Skip if line is empty or blank
if (len(eachline) == 0) || (regexpOnlySpaces.MatchString(eachline)) {
continue
}
// a comment starts somewhere on the line, remove the comment
if regexpInLineComment.MatchString(eachline) {
eachline = strings.Split(eachline, "#")[0]
}
// Process multi-line comments
if regexpStartMultiLineComment.MatchString(eachline) {
//Single-line "multi-line" comment
if regexpSingleMultiLineComment.MatchString(eachline) {
continue
}
isInMultiLine = true
continue
}
if isInMultiLine {
if regexpEndMultiLineComment.MatchString(eachline) {
isInMultiLine = false
}
continue
}
// ****
// ** Process the Header block
// ****
//My Call
if regexpHeaderMyCall.MatchString(eachline) {
//Attempt to redefine value
if headerMyCall != "" {
errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyCall at line %d", lineCount))
continue
}
errorMsg := ""
myCallList := regexpHeaderMyCall.Split(eachline, -1)
if len(strings.TrimSpace(myCallList[1])) > 0 {
headerMyCall, errorMsg = ValidateCall(strings.TrimSpace(myCallList[1]))
// cleanedInput = append(cleanedInput, fmt.Sprintf("My call: %s", headerMyCall))
if len(errorMsg) != 0 {
errorLog = append(errorLog, fmt.Sprintf("Invalid myCall at line %d: %s (%s)", lineCount, myCallList[1], errorMsg))
}
}
//If there is no data after the marker, we just skip the data.
continue
}
//Operator
if regexpHeaderOperator.MatchString(eachline) {
//Attempt to redefine value
if headerOperator != "" {
errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine Operator at line %d", lineCount))
continue
}
errorMsg := ""
myOperatorList := regexpHeaderOperator.Split(eachline, -1)
if len(strings.TrimSpace(myOperatorList[1])) > 0 {
headerOperator, errorMsg = ValidateCall(strings.TrimSpace(myOperatorList[1]))
// cleanedInput = append(cleanedInput, fmt.Sprintf("Operator: %s", headerOperator))
if len(errorMsg) != 0 {
errorLog = append(errorLog, fmt.Sprintf("Invalid Operator at line %d: %s (%s)", lineCount, myOperatorList[1], errorMsg))
}
}
//If there is no data after the marker, we just skip the data.
continue
}
// My WWFF
if regexpHeaderMyWwff.MatchString(eachline) {
//Attempt to redefine value
if headerMyWWFF != "" {
errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyWWFF at line %d", lineCount))
continue
}
errorMsg := ""
myWwffList := regexpHeaderMyWwff.Split(eachline, -1)
if len(strings.TrimSpace(myWwffList[1])) > 0 {
headerMyWWFF, errorMsg = ValidateWwff(strings.TrimSpace(myWwffList[1]))
// cleanedInput = append(cleanedInput, fmt.Sprintf("My WWFF: %s", headerMyWWFF))
if len(errorMsg) != 0 {
errorLog = append(errorLog, fmt.Sprintf("Invalid \"My WWFF\" at line %d: %s (%s)", lineCount, myWwffList[1], errorMsg))
}
}
//If there is no data after the marker, we just skip the data.
continue
}
//My Pota
if regexpHeaderMyPota.MatchString(eachline) {
//Attempt to redefine value
if headerMyPOTA != "" {
errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyPOTA at line %d", lineCount))
continue
}
errorMsg := ""
myPotaList := regexpHeaderMyPota.Split(eachline, -1)
if len(strings.TrimSpace(myPotaList[1])) > 0 {
headerMyPOTA, errorMsg = ValidatePota(strings.TrimSpace(myPotaList[1]))
// cleanedInput = append(cleanedInput, fmt.Sprintf("My Pota: %s", headerMyPOTA))
if len(errorMsg) != 0 {
errorLog = append(errorLog, fmt.Sprintf("Invalid \"My POTA\" at line %d: %s (%s)", lineCount, myPotaList[1], errorMsg))
}
}
//If there is no data after the marker, we just skip the data.
continue
}
//My Sota
if regexpHeaderMySota.MatchString(eachline) {
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oldHeaderMySOTA := headerMySOTA
errorMsg := ""
mySotaList := regexpHeaderMySota.Split(eachline, -1)
if len(strings.TrimSpace(mySotaList[1])) > 0 {
headerMySOTA, errorMsg = ValidateSota(strings.TrimSpace(mySotaList[1]))
// cleanedInput = append(cleanedInput, fmt.Sprintf("My Sota: %s", headerMySOTA))
if len(errorMsg) != 0 {
errorLog = append(errorLog, fmt.Sprintf("Invalid \"My SOTA\" at line %d: %s (%s)", lineCount, mySotaList[1], errorMsg))
}
}
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if oldHeaderMySOTA != headerMySOTA {
// New SOTA reference defined
headerIsFirstLine = true
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}
//If there is no data after the marker, we just skip the data.
continue
}
//My Grid
if regexpHeaderMyGrid.MatchString(eachline) {
//Attempt to redefine value
if headerMyGrid != "" {
errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine MyGrid at line %d", lineCount))
continue
}
errorMsg := ""
myGridList := regexpHeaderMyGrid.Split(eachline, -1)
if len(strings.TrimSpace(myGridList[1])) > 0 {
headerMyGrid, errorMsg = ValidateGridLocator(strings.TrimSpace(myGridList[1]))
// cleanedInput = append(cleanedInput, fmt.Sprintf("My Grid: %s", headerMyGrid))
if len(errorMsg) != 0 {
errorLog = append(errorLog, fmt.Sprintf("Invalid \"My Grid\" at line %d: %s (%s)", lineCount, myGridList[1], errorMsg))
}
}
//If there is no data after the marker, we just skip the data.
continue
}
//QSL Message
if regexpHeaderQslMsg.MatchString(eachline) {
myQslMsgList := regexpHeaderQslMsg.Split(eachline, -1)
if len(myQslMsgList[1]) > 0 {
headerQslMsg = myQslMsgList[1]
// cleanedInput = append(cleanedInput, fmt.Sprintf("QSL Message: %s", headerQslMsg))
}
//If there is no data after the marker, we just skip the data.
continue
}
//Nickname
if regexpHeaderNickname.MatchString(eachline) {
//Attempt to redefine value
if headerNickname != "" {
errorLog = append(errorLog, fmt.Sprintf("Attempt to redefine eQSL Nickname at line %d", lineCount))
continue
}
myNicknameList := regexpHeaderNickname.Split(eachline, -1)
if len(strings.TrimSpace(myNicknameList[1])) > 0 {
headerNickname = strings.TrimSpace(myNicknameList[1])
// cleanedInput = append(cleanedInput, fmt.Sprintf("eQSL Nickmane: %s", headerNickname))
}
//If there is no data after the marker, we just skip the data.
continue
}
// ****
// ** Process the data block
// ****
// Load the header values in the previousLogLine
previousLogLine.MyCall = headerMyCall
previousLogLine.Operator = headerOperator
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previousLogLine.isFirstLine = headerIsFirstLine
previousLogLine.MyWWFF = headerMyWWFF
previousLogLine.MyPOTA = headerMyPOTA
previousLogLine.MySOTA = headerMySOTA
previousLogLine.MyGrid = headerMyGrid
previousLogLine.QSLmsg = headerQslMsg //previousLogLine.QslMsg is redundant
previousLogLine.Nickname = headerNickname
//parse a line
logline, errorLine := ParseLine(eachline, previousLogLine)
//we have a valid line (contains a call)
if logline.Call != "" {
fullLog = append(fullLog, logline)
//store time inference data
if isInterpolateTime && !isInferTimeFatalError {
var isEndOfGap bool
if isEndOfGap, err = wrkTimeBlock.storeTimeGap(logline, len(fullLog)); err != nil {
errorLog = append(errorLog, fmt.Sprintf("Fatal error at line %d: %s", lineCount, err))
isInferTimeFatalError = true
}
//If we reached the end of the time gap, we make the necessary checks and make our gap calculation
if isEndOfGap {
if err := wrkTimeBlock.finalizeTimeGap(); err != nil {
//If an error occurred it is a fatal error
errorLog = append(errorLog, fmt.Sprintf("Fatal error at line %d: %s", lineCount, err))
isInferTimeFatalError = true
}
if isInferTimeFatalError {
break
}
//add it to the gap collection
missingTimeBlockList = append(missingTimeBlockList, wrkTimeBlock)
//create a new block
wrkTimeBlock = InferTimeBlock{}
//Store this record in the new block as a new gap might be following
_, err := wrkTimeBlock.storeTimeGap(logline, len(fullLog))
//no real error or endOfGap processing as it has already been successfully processed
if err != nil {
errorLog = append(errorLog, fmt.Sprintf("Fatal error at line %d: %s", lineCount, err))
isInferTimeFatalError = true
}
}
}
}
//Store append the accumulated soft parsing errors into the global parsing error log file
if errorLine != "" {
errorLog = append(errorLog, fmt.Sprintf("Parsing error at line %d: %s ", lineCount, errorLine))
}
//store the current logline so that it can be used as a model when parsing the next line
// and reset the FirstLine flag
previousLogLine = logline
headerIsFirstLine = false
//We go back to the top to process the next loaded log line (Continue not necessary here)
}
//***
//*** We have done processing the log file, so let's post process it
//***
//if asked to infer the date, lets update the loaded logfile accordingly
if isInterpolateTime {
//Do we have an open timeBlok that has not been closed.
if (wrkTimeBlock.noTimeCount > 0) && (wrkTimeBlock.nextValidTime.IsZero()) {
errorLog = append(errorLog, "Fatal error: missing new time to infer time")
} else {
for _, timeBlock := range missingTimeBlockList {
if err := timeBlock.validateTimeGap(); err != nil {
errorLog = append(errorLog, fmt.Sprintf("Fatal error: %s", err))
break
}
for i := 0; i < timeBlock.noTimeCount; i++ {
position := timeBlock.logFilePosition + i
pLogLine := &fullLog[position]
durationOffset := timeBlock.deltatime * time.Duration(i+1)
newTime := timeBlock.lastRecordedTime.Add(durationOffset)
updatedTimeString := newTime.Format("1504")
pLogLine.Time = updatedTimeString
}
}
}
}
displayLogSimple(fullLog)
//Display parsing errors, if any
if len(errorLog) != 0 {
fmt.Println("\nProcessing errors:")
for _, errorLogLine := range errorLog {
fmt.Println(errorLogLine)
}
isProcessedOK = false
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} else {
fmt.Println("\nSuccessfully parsed ", lineCount, " lines.")
isProcessedOK = true
}
return fullLog, isProcessedOK
}
// displayLogSimple will print to stdout a simplified dump of a full log
func displayLogSimple(fullLog []LogLine) {
isFirstLogLine := true
for _, filledLogLine := range fullLog {
if (filledLogLine.isFirstLine || isFirstLogLine) {
fmt.Print("\n\n")
fmt.Println(SprintHeaderValues(filledLogLine))
fmt.Print(SprintColumnTitles())
isFirstLogLine = false
}
fmt.Print(SprintLogInColumn(filledLogLine))
}
}